4E EMSA is an International collaboration within IEA which main object is to spread and globalize methods and technics of high efficiency electrical motors and motor systems. Denmark participates
The project”s objective is to demonstrate how smart grid technology will enable Operators of commercial buildings to provide flexibility services to existing flexibility markets and to local
Development of control systems for energy efficient operation of domestic heat pumps in combination with an under floor heating system. The control system will ensure lowest possible supply
Based on a patent pending solution from Nordic Power Converters and the IC expertise of DTU Elektro the project partners will develop a charger technology for laptops, tablets, and mobile phones, 80%
The project will use the national testfacilities and expertise, established as a part of a global network of testlaboratories, in continuation of IEA-4E-Solid State Lighting Annex. Focus is on
Waste water treatment plants can become net energy producers, delivering electricity and heat at a competitive price. Envidan and Per Aarsleff aim to build such plants in Denmark and internationally
Decarbonisation of the transport sector depends on greater uptake of EVs, but buyers worry about driving range and comfort- especially in winter where cabin heating drains the battery and reduces the
This project will develop an upgraded exhaust valve for large diesel engines. The new exhaust valve will allow higher exhaust gas temperatures, leading to higher waste heat recovery system efficiency
COORDICY is a Danish-American interdisciplinary research project that investigates how to bring down the energy usage of public and private industrial facilities.
The project SYNFUEL is reasearching how to combine electrolysis and gasification of biomass in a way that produces more biofuel from the same ammount of biomass.
ElectroGas develops knowledge and technology which can take surplus electricity from renewable energy and use it to upgrade CO2 to CH4 by feeding it to microorganisms present in biogas reactors.
The researchers of LEDSiC is exploring how wavelength conversion using fluorescent silicon carbide can produce white light-emitting diodes (LEDs). LEDs looks to be the market leading light source of
Soon we will be able to harvest energy from water treatment and thereby change water treatment plants from energy consuming to green energy producing.
Danmarks Tekniske Universitet (DTU)
Innovationsfonden
2015
2019
Along with engine designers Danish and international researchers are looking to adress and explain how sulfuric acid forms and condensates in ship engines. The problem with "cold corrosion" caused by
SYNFERON aims at establishing a new technology platform that combines thermochemical and biological processing of biomass in order to make the production of biogas easier.
Air traffic will be dependent on liqued fuels in all foreseeable future. The goal of FLABBERGAST is to develop an environmentally sustainable production of bioethanol that also fulfills the physical
The objective of this project is to develop and demonstrate a 10 MW pressurized entrained flow gasiflcation technology that can utilize low quality biomasses in the energy sector in an efficient and
We will optimize stalk as a biomass. By pregrinding the stalk, we can reduce the residence time in the biogas reactor. The particle size of 05-15 mm. will be much easier to organically convert, and we
The purpose of the project is to develop LED lighting solution for EX areas that comply with the requirements for the EX standards concerning protection against explosive gas atmospheres, combustible